JP2005167350A - Image display, method and program for transferring image data - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image display in a portable telephone with a camera or a PDA capable of transferring two kinds of image data, i.e. natural image data and artificial image data, efficiently to an image display means without requiring the conventional transfer processing of natural image data by a CPU. <P>SOLUTION: A natural image data generating means 101 generates partial data of a predetermined size smaller than the data size of one screen of natural image data and sends the partial data sequentially and intermittently to an image display means 104. A data transfer arbiter means 103 transfers artificial image data generated from an artificial image data generating means 102 to the image display means 104 when the partial data are not transferred while sequentially receiving the partial data sent sequentially from the natural image data generating means 101 and transferring them to the image display means 104. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an image display device that is mounted on a mobile phone, a PDA, or the like and displays two synthesized image data.

In recent years, mobile phones with cameras have become the main products of mobile phones.
Here, a configuration of a display system mounted on a conventional camera-equipped mobile phone will be described.
FIG. 12 is a diagram illustrating an example of a functional configuration of a display system mounted on a conventional camera-equipped mobile phone. The configuration in FIG. 12 is based on Patent Document 1 or Non-Patent Document 1.

The display system shown in FIG. 12 includes an imaging unit 1401, an image display unit 1402 such as a liquid crystal display device, and a CPU 1403 that controls the entire mobile phone.
Note that illustration and description of the communication function portion are omitted.
The imaging unit 1401 includes a lens 1404 that forms an optical image, an image sensor 1405 that converts the formed optical image into an electric signal, and a signal processing unit 1406 that processes the signal of the image sensor to generate predetermined image data. And an image memory 1407 for storing the generated image data for one screen.

Next, the photographing operation of this display system will be described.
When the display system is switched to the shooting mode by a photographer's operation, the imaging unit 1401 starts operation, generates image data, and sequentially sends the generated image data to the image display unit 1402.
The image display means 1402 displays the image data sent sequentially on the screen. The image displayed at this time is called a monitor image, which is an image for confirming a subject to be photographed, and is a moving image.

Thereafter, when the photographer presses a shutter button (not shown), the image data generated by the imaging means 1401 is recorded in a storage memory (not shown).
Here, the flow until the monitor image is displayed will be briefly described.
First, the image sensor 1405 photoelectrically converts an optical image formed by the lens 1404 provided in the imaging unit 1401 into an electric signal.

The electrical signal is converted into image data (hereinafter referred to as natural image data) in a predetermined format (Y / C or RGB) by the signal processing unit 1406, and at least one screen of natural image data is converted into an image. Stored in the memory 1407.
The CPU 1403 performs processing for transferring natural image data stored in the image memory 1407 to the image display means 1402, and generates image data such as characters and graphics (hereinafter referred to as artificial image data) to generate an image. The image is sent to the display unit 1402 or the image display unit 1402 is issued with an image drawing command or the like.

The image display means 1402 has a function of drawing a predetermined graphic or the like by an image drawing command or a function of combining a camera image with characters / graphics, etc., and synthesizes the natural image data and the artificial image data sent thereto, Display on the screen.
JP 2000-244673 A Seiko Epson Corporation S1D13706 Series Technical Manual 1-4 to 1-7

By the way, in the conventional display system as shown in FIG. 12, since the CPU 1403 performs the transfer process of the natural image data generated by the image pickup means 1401 in parallel with other processes, Display was difficult. Examples of the processing performed in parallel include generation and transmission of artificial image data to be displayed on the screen together with natural image data.
There is also a problem that other processing cannot be performed because the CPU bus is occupied during transfer of natural image data.

  In order to solve these problems, the present invention provides a natural image data and artificial image data in an image display device provided in a camera-equipped mobile phone, a PDA or the like without the CPU performing a natural image data transfer process as in the prior art. It is an object of the present invention to provide an image display apparatus capable of efficiently transferring the two types of image data to the image display means and various techniques relating to the apparatus.

  In order to achieve the above object, an image display device according to the present invention includes a first generation unit that generates first image data, a second generation unit that generates second image data, the generated first image data, An image display device comprising image display means for combining and displaying second image data, wherein the first generation means is a predetermined smaller than a data size of one screen, which is a part of the first image data. Generating partial data of a size, sending the partial data sequentially and intermittently to the image display means, sequentially receiving the partial data sequentially sent from the first generation means, and transferring them to the image display means And a transfer arbitration unit that receives the second image data generated by the second generation unit and transfers it to the image display unit when the partial data is not transferred. That.

  The image data transfer method according to the present invention includes a first generation unit that generates first image data, a second generation unit that generates second image data, and the generated first image data and second image data. An image data transfer method used in an image display device comprising an image display means for combining and displaying the image, wherein the first generation means is a part of the first image data, and is data for one screen. Generating partial data of a predetermined size smaller than the size and sequentially sending the partial data to the image display means intermittently; receiving the partial data sequentially sent from the first generation means; The second image data generated by the second generation means is received and transferred to the image display means at a time when the partial data is not transferred while being transferred to the image display means. Characterized in that it comprises a flop.

With the configuration described above, it is possible to increase the transfer speed of image data, which has been reduced by the conventional CPU performing the transfer process of natural image data. Further, the CPU can perform another process.
The first generation means stores the generated partial data, and a buffer of a predetermined size, and the partial data is faster than the data input speed to the buffer as soon as the partial data is stored in the buffer. Buffer control means for performing control to send to the image display means at a speed may be provided.

  Conventionally, the transfer speed of the natural image data by the CPU is performed in parallel with other processing, and therefore is often slower than the generation speed of the natural image data by the image pickup means. Although it is necessary to provide a memory capable of storing natural image data for one screen, which has been a bottleneck in cost reduction, the configuration of the present invention reduces the memory (buffer) to a capacity smaller than the one screen capacity conventionally required. ) Can be used to mediate transfer of image data, and the apparatus can be downsized.

  Further, when the transfer mediation means is requesting transfer of the second image data from the second image data generation means while transferring the partial data from the first generation means to the image display means. A wait signal indicating an instruction to wait for the second image data generation unit to wait for transfer may be output, and a period in which the partial data is frequently transferred and a period in which the partial data is hardly transferred together with the wait signal. It is also possible to output a transfer frequency signal instructing.

With this configuration, the transfer of the second image data can be performed at a time when the transfer frequency of the first image data is low, and the efficiency of the data transfer process can be improved.
The first image data generation means may include first image data generation speed adjustment means for adjusting the generation speed of the first image data.
By adjusting the generation speed of the first image data, transfer can be performed at an optimum speed even when the maximum transfer speed of the image data to the image display means varies.

In addition, the transfer arbitration unit arbitrates transfer of the first image data output from the first image data generation unit and the second image data output from the second image data generation unit; A first protocol setting unit that switches a method of transferring image data to the image display unit may be provided.
The protocol setting means can transfer image data to a plurality of image display means having different image data transfer methods.

  The image display means outputs a wait signal instructing the transfer arbitration generating means to temporarily stop transfer of the first image data and the second image data, and the transfer arbitration means includes: Data transfer control means for temporarily stopping the transfer of the first image data and the second image data to the image display means based on the wait signal, and data for monitoring the transfer speed of the data to the image display means A transfer rate measuring unit, and the first image data generation rate adjusting unit may adjust the first image data generation rate based on a signal from the data transfer rate measuring unit.

With this configuration, it is possible to cope with a case where the transfer speed of the image data to the image display means is dynamically changed.
The first image data generation means processes an image sensor that converts an optical image formed through a lens into an electric signal, an image sensor driving unit that drives the image sensor, and a signal of the image sensor. An image processing unit that generates first image data may be provided.

That is, the first image data generating unit may be realized as a so-called imaging unit.
The image display means may include image generation means for automatically generating a predetermined image upon receiving a predetermined command.
The second image data generation means includes transfer means for transferring the generated second image data to the image display means, and issuing means for issuing a command for causing the image display means to generate a predetermined image. It may be provided.

Further, the first image data generation unit and the transfer arbitration unit may be formed by a single semiconductor chip.
The first image data is natural image data that is a still image or a moving image, the second image data is artificial image data that is character data or graphic data, and the image display means includes natural image data and Synthesis means for synthesizing the artificial image data may be provided.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
<Embodiment>
<Configuration>
FIG. 1 is a diagram showing a functional configuration of an image display apparatus according to an embodiment of the present invention.
The image display apparatus 1 includes functional units such as a natural image data generation unit 101, an artificial image data generation unit 102, an image data transfer arbitration unit 103, and an image display unit 104.

The image display device 1 is a computer including hardware such as a CPU, an input device, an output device, and a storage device. The control of each function is realized by the CPU executing a control program stored in the storage device.
The natural image data generating unit 101 has a function of acquiring a natural image such as a photograph or a video image by photographing or reading from a recording medium. Hardware such as a camera or a memory card reader implements this function.

The artificial image data generation unit 102 has a function of generating artificial image data such as characters and graphics. The CPU performs this function.
The image data transfer arbitration unit 103 has a function of arbitrating the natural image data output from the natural image data generation unit 101 and the artificial image data output from the artificial image data generation unit 102 and transferring them to the image display unit 104. Hardware dedicated to data transfer arbitration different from the CPU realizes this function.

The image display means 104 has a function of receiving natural image data and artificial image data transferred by the image data transfer arbitration means 103 and displaying an image on the screen. This function is realized by a liquid crystal display and an image display control circuit.
Since the natural image data and the artificial image data can be arbitrated and transferred to the image display unit 104 by the image data transfer arbitration unit 103, the natural image data can be transferred at high speed. The artificial image data generation means 102 is usually realized by a CPU, but it is not necessary to transfer natural image data, and therefore another process can be performed.

Next, the configuration of the natural image data generation unit 101 and control signals between the image data transfer arbitration unit 103 and the artificial image data generation unit 102 will be described.
The natural image data generation unit 101 illustrated in FIG. 2 includes a natural image data generation unit 301, a data buffer 302, and a data buffer control unit 303.
The natural image data generation unit 301 has a function of generating natural image data.

The data buffer 302 is a memory having a predetermined size capable of storing a part of natural image data.
The data buffer control unit 303 has a function of writing the natural image data 304 output from the natural image generation unit 301 into the data buffer 302 and performing control to read out the written natural image data at a speed faster than the speed at the time of writing. Have.

As a result, the natural image data 305 input to the image data transfer arbitration unit 103 becomes intermittent, and the artificial image data 306 can be transferred during a period in which the natural image data 305 is not transferred.
The transfer request signal 501 is a signal for the artificial image data generation unit 102 to request the image data transfer arbitration unit 103 to transfer the artificial image data.
The wait signal 502 is used when the image data transfer arbitration unit 103 requests the artificial image data generation unit to wait for transfer when there is a request for transfer of the artificial image data from the artificial image data generation unit 102 while the natural image data is being transferred. Signal.

<Operation>
Next, a transfer arbitration method for image data will be described.
FIG. 3 is a flowchart showing a transfer arbitration method for image data according to the present invention.
First, the natural image data generation unit 102 generates natural image data in step S01, and divides the natural image data in step S02.

One of the natural image data divided in step S03 is transferred to the image display means 104.
In step S04, the image data transfer arbitration unit 103 determines whether transfer for one screen has been completed.
When the transfer for one screen is completed (step S04: YES), the process ends. If transfer of one screen has not been completed yet (step S04: NO), the process proceeds to step S05, and the image data transfer arbitration unit 103 permits the artificial image data generation unit 102 to input artificial image data. .

Subsequently, in step S06, the image data transfer arbitration unit 103 confirms whether or not the artificial image data is input from the artificial image data generation unit 102.
When the artificial image data is input (step S06: YES), the process proceeds to step S07, and the artificial image data is transferred to the image display means 104.
When the artificial image data has not been input (step S06: NO), the process proceeds to step S08.

Subsequently, in step S08, the image data transfer arbitration unit 103 determines whether or not the next transfer scheduled data of the divided natural image data has arrived. When the next data transfer start time has been reached (step S08: YES), the process returns to step S03 to transfer the next data.
When the next data transfer start time has not been reached (step S08: NO), the process returns to step S06 to check whether or not artificial image data has been input from the artificial image data generation means 102.

This ensures that the natural image data can be transferred within a predetermined time.
Further, the natural image data 305 input to the image data transfer arbitration means 103 is intermittently sent. FIG. 4 shows the state in a time chart.
Natural image data 1 is input to the data buffer 302 during a period from time t0 to time t1. The natural image data 1 corresponds to one of the divided natural image data.

Next, natural image data 1 is read from the data buffer 302 between time t1 and time t3. At this time, the transfer of the natural image data 1 is completed by time t3 after reading at a faster speed than the time of writing, so that the artificial image data can be transferred from time t3 to time t7.
Assume that the transfer request signal 501 is validated from the artificial image data generation unit 102 at time t2. Here, the signal level is valid when it is Low.

The image data transfer arbitration unit 103 transfers natural image data at time t2, and cannot accept transfer of artificial image data. Therefore, the wait signal 502 is validated (low level is validated).
Since the wait signal 502 is valid, the artificial image data generation unit 102 does not transfer the artificial image data and waits for the wait signal 502 to be released.

Since the reading of the natural image data 1 is completed at time t3, the image data transfer arbitration unit 103 disables the wait signal at the high level, that is, invalidation.
The artificial image data generation unit 102 that has received the invalidation of the wait signal 502 starts the transfer of the artificial image data, and the transfer of the artificial image data is completed at time t4.
At time t5, the artificial image data generation unit 102 requests transfer of the artificial image again. At this time, since the image data transfer arbitration unit 103 does not transfer the natural image data, the artificial image data is transferred immediately. Is done.

Hereinafter, modifications of the image display device 1 described in the embodiment will be described.
<Modification 1>
FIG. 5 is a functional configuration diagram of the image display apparatus according to the first modification.
The image display device 1A shown in FIG. 5 is different from the image display device 1 shown in FIG. 2 in that a transfer frequency signal 701 is transmitted from the image data transfer arbitration unit 103A to the artificial image data generation unit 102A.

The output of the natural image data from the natural image data generation unit 101 to the image data transfer arbitration unit 103A is not always performed, and there are a period of high transfer frequency and a period of low (or no) transfer frequency.
For example, when the natural image data is a video image, there is a period of a vertical blanking period between a plurality of video images, and no image signal is output during that period.

  Therefore, the image data transfer arbitration unit 103A sends a transfer frequency signal indicating the transfer frequency of the natural image data to the artificial image data generation unit 102A, so that the artificial image data generation unit 102A has a low frequency of natural image data transfer. By transferring the artificial image data, it is possible to reduce the probability of waiting by the wait signal and increase the time for performing other processing.

<Modification 2>
FIG. 6 is a functional configuration diagram of the image display apparatus according to the second modification.
The image display apparatus 1B shown in FIG. 6 is different from the image display apparatus 1 shown in FIG. 2 in that the natural image data generation unit 101B includes a natural image generation speed adjustment unit 801 that sets the generation speed of natural image data. Is a point.

Thereby, the generation speed of natural image data can be changed. Since the required maximum transfer speed varies depending on the size of the screen displayed by the image display means 104, the optimum speed can be obtained by changing the generation speed of the natural image data according to the screen size displayed by the image display means 104. Can transfer natural image data.
<Modification 3>
FIG. 7 is a functional configuration diagram of the image display apparatus according to the third modification.

The image display device 1C shown in FIG. 7 is different from the image display device 1 shown in FIG. 2 in that the image data transfer arbitration unit 103C includes a data transfer arbitration unit 901 and a data transfer control unit 902, and the data transfer control unit 902 Includes a protocol setting unit 903.
The data transfer arbitration unit 901 has a function of arbitrating natural image data transfer and artificial image data transfer.

The data transfer control unit 902 performs data transfer control according to the transfer method setting by the internal protocol setting unit 903.
The protocol setting unit 903 has a function of selecting and setting one of a plurality of transfer methods according to the type of the image display unit 104.
Basically, most of the image display means provided in the image display device is designed to be connected to the CPU.

However, there are many types of CPU interface specifications, and the image display means 104 often supports only a part of them.
Specifically, there are differences in multiplexing and separation methods of addresses and data, differences in timing specifications of enable signals and data, and the like.
By providing the protocol setting unit 903, it is possible to absorb these protocol differences and connect to many image display means.

<Modification 4>
FIG. 8 is a functional configuration diagram of the image display apparatus according to the fourth modification.
The image display device 1D shown in FIG. 8 is different from the image display device 1 shown in FIG. 2 in that the natural image data generation unit 101D includes a natural image generation speed adjustment unit 1002, and the image data transfer arbitration unit 103D. In addition, a data transfer arbitration unit 901 and a data transfer control unit 902 are provided. The data transfer control unit 902 includes a transfer rate measuring unit 1001 and transmits a wait signal from the image display unit 104D to the data transfer control unit 902. It is a point to be done.

If the image display means 104D cannot always accept data transfer due to some internal processing or the like, the image display means 104D transmits a wait signal to the data transfer control unit 902 to wait for transfer of the image data. For example, there is a case where a predetermined image is drawn inside and an image is drawn.
The data transfer arbitration unit 901 has a function of arbitrating natural image data transfer and artificial image data transfer.

When receiving a wait signal from the image display unit 104D, the data transfer control unit 902 performs control to stop data transfer.
The data transfer rate measuring unit 1001 has a function of measuring the transfer rate of image data. The measured data transfer rate is notified to the natural image generation rate adjusting unit 1002 as data transfer rate information.

The natural image generation rate adjustment unit 1002 has a function of adjusting the generation rate of natural image data based on the data transfer rate information measured by the data transfer rate measurement unit 1001.
Thereby, even when the transfer rate dynamically changes, it is possible to prevent the data buffer 302 from overflowing.
<Modification 5>
FIG. 9 is a functional configuration diagram of the image display apparatus according to the fifth modification.

The image display device 1E shown in FIG. 9 is different from the image display device 1 shown in FIG. 2 in that the natural image data generation unit 101 is replaced with the imaging unit 1100.
The imaging unit 1100 processes a lens 1101 that forms an optical image, an image sensor 1102 that converts the optical image into an electric signal, an image sensor drive unit 1103 that drives the image sensor, and an output signal of the image sensor to process a predetermined signal. The image processing unit 1104 that generates a formatted image, a data buffer 302, and a data buffer control unit 303 are included.
<Modification 6>
FIG. 10 is a functional configuration diagram of the image display apparatus according to the sixth modification.

An image display device 1F shown in FIG. 10 is a modification of the image display device 1E shown in FIG. 9, and is different in that the data transfer control unit 902 includes a transfer rate measurement unit 1001.
The image display means 104F transmits a wait signal to the data transfer control unit 902 to wait for the transfer of the image data, whereby the transfer speed of the image data varies.
Therefore, the image sensor driver 1103 is notified of the transfer speed of the image data, and the generation speed of the natural image data is adjusted based on the transfer speed.

Thereby, even when the transfer rate dynamically changes, it is possible to prevent the data buffer 302 from overflowing.
<Modification 7>
FIG. 11 is a functional configuration diagram of the image display device according to the modified example 7.
An image display device 1G shown in FIG. 11 includes the image pickup unit 1100F and the image data transfer arbitration unit 103F of the image display device 1F according to Modification 6 shown in FIG.

  Thereby, size reduction of an image display apparatus can be achieved. However, it is desirable that the artificial image data generation means and the image display means are realized by separate semiconductor chips or the like. This is because it is better to realize various combinations according to the product specifications.

  The present invention can be applied to an image display device that is mounted on a mobile phone, a PDA, or the like and that displays two different image data in combination.

It is a figure which shows the function structure of the image display apparatus which concerns on embodiment. It is a figure which shows the function structure of the image display apparatus which concerns on embodiment. 5 is a flowchart illustrating a method for transferring and adjusting image data according to the present invention. FIG. 6 is a timing chart illustrating image data transfer. It is a functional block diagram of the image display apparatus of the modification 1. It is a function block diagram of the image display apparatus of the modification 2. It is a function block diagram of the image display apparatus of the modification 3. It is a function block diagram of the image display apparatus of the modification 4. It is a function block diagram of the image display apparatus of the modification 5. It is a function block diagram of the image display apparatus of the modification 6. It is a function block diagram of the image display apparatus of the modification 7. It is a figure which shows the function structure of the conventional display system.

Explanation of symbols

1, 1A, 1B, 1C, 1D, 1E, 1F, 1G Image display devices 101, 101B, 101D, natural image data generation means 102, 102A Artificial image data generation means 103, 103A, 103C, 103D, 103F Image data transfer arbitration Means 104, 104D Image display means 301 Natural image data generation unit 302 Data buffer 303 Data buffer control unit 304 Data buffer input natural image data 305 Data buffer output natural image data 306 Artificial image data 501 Artificial image data transfer request signal 502 Artificial image data Transfer wait signal 701 Natural image data transfer frequency signal 801 Natural image data generation rate adjustment unit 901 Data transfer arbitration unit 902 Data transfer control unit 903 Protocol setting unit 1001 Transfer rate measurement unit 1002 Natural image data Forming speed adjusting unit 1101 lens 1102 image sensor 1103 an image sensor driving unit 1104 image processing unit

Claims (13)

First generation means for generating first image data, second generation means for generating second image data, and image display means for combining and displaying the generated first image data and second image data. An image display device,
The first generation unit generates partial data having a predetermined size smaller than the data size of one screen, which is a part of the first image data, and sequentially and intermittently sends the partial data to the image display unit. Send out,
The second image generated by the second generation means at a time when the partial data sequentially received from the first generation means is received and transferred to the image display means while the partial data is not transferred. An image display apparatus comprising transfer arbitration means for receiving data and transferring the data to the image display means. The first generation means includes
A buffer of a predetermined size for storing the generated partial data;
Buffer control means for performing control to send the partial data to the image display means at a speed faster than the data input speed to the buffer as soon as the partial data is stored in the buffer. The image display device according to claim 1.   When the transfer of the second image data is requested from the second image data generation unit when the partial data transfer is performed from the first generation unit to the image display unit, 3. The image display device according to claim 2, wherein a wait signal indicating an instruction to make the second image data generation unit wait for transfer is output.   4. The transfer arbitration unit further outputs a transfer frequency signal indicating a period during which the partial data is frequently transferred and a period during which the partial data is hardly transferred together with the wait signal. Image display device.   The image display device according to claim 4, wherein the first image data generation unit includes a first image data generation rate adjustment unit that adjusts a generation rate of the first image data. The transfer arbitration means includes
Arbitration means for mediating transfer of the first image data output from the first image data generation means and the second image data output from the second image data generation means;
The image display apparatus according to claim 5, further comprising: a protocol setting unit that switches a transfer method of image data to the first image display unit. The image display means outputs a wait signal that instructs the transfer arbitration generation means to temporarily stop the transfer of the first image data and the second image data,
The transfer arbitration means includes
Data transfer control means for temporarily stopping the transfer of the first image data and the second image data to the image display means based on the wait signal;
Data transfer rate measuring means for monitoring the transfer rate of data to the image display means,
The image display apparatus according to claim 5 or 6, wherein the first image data generation speed adjustment unit adjusts the first image data generation speed based on a signal from the data transfer rate measurement unit. The first image data generation means includes an image sensor that converts an optical image formed through a lens into an electrical signal;
An image sensor driving unit for driving the image sensor;
The image display apparatus according to claim 1, further comprising: an image processing unit that processes a signal of the image sensor to generate first image data.   The image display device according to claim 1, wherein the image display unit includes an image generation unit that automatically generates a predetermined image in response to a predetermined command. The second image data generation means includes
Transfer means for transferring the generated second image data to the image display means;
The image display apparatus according to claim 1, further comprising an issuing unit that issues a command for causing the image display unit to generate a predetermined image.   The image display device according to claim 1, wherein the first image data generation unit and the transfer arbitration unit are formed by a single semiconductor chip. The first image data is natural image data that is a still image or a moving image,
The second image data is artificial image data which is character data or graphic data,
The image display device according to any one of claims 1 to 11, wherein the image display means includes synthesis means for synthesizing natural image data and artificial image data. First generation means for generating first image data, second generation means for generating second image data, and image display means for combining and displaying the generated first image data and second image data. An image data transfer method used for an image display device comprising:
The first generation unit generates partial data having a predetermined size smaller than the data size of one screen, which is a part of the first image data, and sequentially and intermittently sends the partial data to the image display unit. Sending out steps;
The second image generated by the second generation means at a time when the partial data sequentially received from the first generation means is received and transferred to the image display means while the partial data is not transferred. Receiving the data and transferring the data to the image display means.

Images